Mitigating post-fire regeneration failure in boreal landscapes with reforestation and variable retention harvesting: At what cost?

Cyr, Dominic; Splawinski, Tadeusz Bartek; Puigdevall, Jesus Pascual; Valeria, Osvaldo; Leduc, Alain; Thiffault, Nelson; Bergeron, Yves; Gauthier, Sylvie

doi:10.1139/cjfr-2021-0180

Cited by 21 publications

(25 citation statements)

References 62 publications

(98 reference statements)

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“…Black spruce stands exhibiting limited reproductive potential are at greater risk of natural regeneration failure following fire and may result in the fragmentation of continuous forest cover, leading to changes in successional patterns and forest composition, and a potential shift from closedcrown forest to open lichen woodland (Sirois and Payette 1989;Sirois and Payette 1991;Girard et al 2008Girard et al , 2009Côté et al 2013;Splawinski et al 2019aSplawinski et al , 2019cBaltzer et al 2021;Cyr et al 2021). Projections of a more frequent and intense fire regime under climate change (Flannigan et al 2005(Flannigan et al , 2009(Flannigan et al , 2013Bergeron et al 2010;Boulanger et al 2014) will make both young and over-mature stands even more vulnerable to regeneration failure, although vegetation feedbacks may dampen the effect (Boulanger et al 2017).…”

Section: Resilience To Firementioning

confidence: 99%

“…The species can therefore be extirpated from stands affected by short fire intervals (Keeley et al 1999;Johnstone and Chapin 2006;Johnstone et al 2010a;Brown and Johnstone 2012;Pinno et al 2013). Given this sensitivity to both a short fire return interval and an increase in fire intensity in the context of climate warming, black spruce is vulnerable to regeneration failure following fires, as shown by comparative (e.g., Johnstone and Chapin 2006;Baltzer et al 2021) and modelling studies (Splawinski et al 2019a(Splawinski et al , 2019cCyr et al 2021). This process has the potential to decrease forest resilience and stand productivity over time.…”

Section: Introductionmentioning

confidence: 99%

“…A better understanding of the reproductive ecology and life history traits of black spruce in northern cold forests will improve modelling and forecasting of regeneration and succession in the context of global changes in climate and associated disturbance regimes, environmental stressors, and forest management. These forcing stressors (climate warming, fire, insect epidemic, harvest) have the capacity to induce regeneration failure and productivity loss, thereby leading to a decline in forest resilience and cover over time (Simard and Payette 2005;Splawinski et al 2019a;Baltzer et al 2021;Cyr et al 2021). Such knowledge will prove particularly useful in the development of sustainable forest management, restoration, and adaptive strategies aimed at minimizing or reversing such changes (Raulier et al 2013;Gauthier et al 2014Gauthier et al , 2015aGauthier et al , 2015bSplawinski et al 2019aSplawinski et al , 2019cCyr et al 2021).…”

Section: Introductionmentioning

confidence: 99%

“…These forcing stressors (climate warming, fire, insect epidemic, harvest) have the capacity to induce regeneration failure and productivity loss, thereby leading to a decline in forest resilience and cover over time (Simard and Payette 2005;Splawinski et al 2019a;Baltzer et al 2021;Cyr et al 2021). Such knowledge will prove particularly useful in the development of sustainable forest management, restoration, and adaptive strategies aimed at minimizing or reversing such changes (Raulier et al 2013;Gauthier et al 2014Gauthier et al , 2015aGauthier et al , 2015bSplawinski et al 2019aSplawinski et al , 2019cCyr et al 2021).…”

Section: Introductionmentioning

confidence: 99%

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Factors influencing black spruce reproductive potential in the northern boreal forest of Quebec

et al. 2022

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The reproductive ecology of the semi-serotinous species black spruce (Picea mariana (Mill.) BSP) in northern boreal forests remains poorly understood. There is a general lack of data on cone / seed production and viability as a function of biotic tree-level characteristics and abiotic variables. No studies currently exist to quantify these differences over a large gradient in temperature, elevation, and precipitation. Extensive physical, ecological, dendrometric, and reproductive data were collected from young to very old black spruce stands in northern Quebec. ANOVA and general linear mixed models were used to examine inter-annual cone production, and the relative importance of the biotic and abiotic explanatory factors in determining total cone production; length of the cone-bearing zone; filled seeds per cone; proportion of filled seeds; and seed viability. Results illustrate that the reproductive ecology of black spruce in northern cold forests is mainly explained by biotic variables such as age and DBH, and by abiotic variables related to temperature such as elevation, length of the growing season, and growing degree-days. Black spruce exhibits a lower reproductive potential in northern cold forests, making it possibly less resilient to increased fire frequency, particularly in unproductive and very young or very old stands.

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Section: Resilience To Firementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Factors influencing black spruce reproductive potential in the northern boreal forest of Quebec

et al. 2022

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“…Wildfires have an important influence on forest management activities. In the short term, fire suppression is expensive (Stocks and Martell 2016), as are post-fire silvicultural interventions to restore or maintain forest productivity (Cyr et al 2022a). In the long term, wildfires also cause decreases in sustainable harvest rates (Van Wagner 1983;Boychuk and Martell 1996) and may exert great pressure on other ecosystem services such as carbon sequestration (Colombo et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Forecasting wildfire-induced declines in potential forest harvest levels across Québec

et al. 2023

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Wildfires are increasing in importance in many regions of the Canadian boreal forest and are an ongoing risk for forest management activities. We simulated the effects of fires on long-term harvest levels on the 59 forest management units of the province of Québec, Canada, for the 2020-2100 period. Different climate change pathways (stable, RCP 4.5 or 8.5) and salvage logging rates (20% or 70% of mature burned stands) were simulated. Changes in forest flammability due to climate change, species migration and forest management were also considered. Under stable climatic conditions, the decline in potential harvest levels due to fire, based on 50 simulations per scenario, ranged between 3 - 36% (mean = 12%) when high salvage logging rates were simulated, compared to 4 - 59% (mean = 21%) for low salvage rates. Climate change caused increases in burn rates between -3 and 39% for RCP 4.5, and between 33 and 69% for RCP 8.5 at the end of the 21st century. However, the effects of these modified burn rates on harvest levels did not differ substantially from those of baseline burn rates, probably because the projected burn rates were comparatively greater during the later part of the simulations (2070-2100), when their impacts on harvest rate calculations were limited. This study indicates that potential harvest levels calculated without considering wildfires are likely to be non-sustainable.

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Land sparing and sharing patterns in forestry: exploring even-aged and uneven-aged management at the landscape scale

et al. 2023

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Mitigating post-fire regeneration failure in boreal landscapes with reforestation and variable retention harvesting: At what cost?

Cited by 21 publications

References 62 publications

Factors influencing black spruce reproductive potential in the northern boreal forest of Quebec

Factors influencing black spruce reproductive potential in the northern boreal forest of Quebec

Forecasting wildfire-induced declines in potential forest harvest levels across Québec

Land sparing and sharing patterns in forestry: exploring even-aged and uneven-aged management at the landscape scale

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